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Literature DB >> 30645100

Effects of Defects on Band Structure and Excitons in WS₂ Revealed by Nanoscale Photoemission Spectroscopy.

Christoph Kastl¹, Roland J Koch^1,2, Christopher T Chen¹, Johanna Eichhorn³, Søren Ulstrup^2,4, Aaron Bostwick², Chris Jozwiak², Tevye R Kuykendall¹, Nicholas J Borys⁵, Francesca M Toma³, Shaul Aloni¹, Alexander Weber-Bargioni¹, Eli Rotenberg², Adam M Schwartzberg¹.

Abstract

Two-dimensional materials with engineered composition and structure will provide designer materials beyond conventional semiconductors. However, the potentials of defect engineering remain largely untapped, because it hinges on a precise understanding of electronic structure and excitonic properties, which are not yet predictable by theory alone. Here, we utilize correlative, nanoscale photoemission spectroscopy to visualize how local introduction of defects modifies electronic and excitonic properties of two-dimensional materials at the nanoscale. As a model system, we study chemical vapor deposition grown monolayer WS2, a prototypical, direct gap, two-dimensional semiconductor. By cross-correlating nanoscale angle-resolved photoemission spectroscopy, core level spectroscopy, and photoluminescence, we unravel how local variations in defect density influence electronic structure, lateral band alignment, and excitonic phenomena in synthetic WS2 monolayers.

Keywords: chemical vapor deposition; defects; excitons; photoemission spectroscopy; transition metal dichalcogenides

Year: 2019 PMID： 30645100 DOI： 10.1021/acsnano.8b06574

Source DB: PubMed Journal: ACS Nano ISSN： 1936-0851 Impact factor: 15.881

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Cited

6 in total

1. Nanoscale mapping of quasiparticle band alignment.

Authors: Søren Ulstrup; Cristina E Giusca; Jill A Miwa; Charlotte E Sanders; Alex Browning; Pavel Dudin; Cephise Cacho; Olga Kazakova; D Kurt Gaskill; Rachael L Myers-Ward; Tianyi Zhang; Mauricio Terrones; Philip Hofmann
Journal: Nat Commun Date: 2019-07-23 Impact factor: 14.919

2. Spatially resolved fluorescence of caesium lead halide perovskite supercrystals reveals quasi-atomic behavior of nanocrystals.

Authors: Dmitry Lapkin; Christopher Kirsch; Jonas Hiller; Denis Andrienko; Dameli Assalauova; Kai Braun; Jerome Carnis; Young Yong Kim; Mukunda Mandal; Andre Maier; Alfred J Meixner; Nastasia Mukharamova; Marcus Scheele; Frank Schreiber; Michael Sprung; Jan Wahl; Sophia Westendorf; Ivan A Zaluzhnyy; Ivan A Vartanyants
Journal: Nat Commun Date: 2022-02-16 Impact factor: 14.919

3. Bandgap engineering of few-layered MoS₂ with low concentrations of S vacancies.

Authors: Wen He; Jia Shi; Hongkang Zhao; Hui Wang; Xinfeng Liu; Xinghua Shi
Journal: RSC Adv Date: 2020-04-21 Impact factor: 4.036

4. Assessing the role of plasma-engineered acceptor-like intra- and inter-grain boundaries of heterogeneous WS₂-WO₃ nanosheets for photocurrent characteristics.

Authors: Gopika Gopakumar; Shantikumar V Nair; Mariyappan Shanmugam
Journal: Nanoscale Adv Date: 2020-04-22

5. The role of chalcogen vacancies for atomic defect emission in MoS₂.

Authors: Elmar Mitterreiter; Bruno Schuler; Ana Micevic; Daniel Hernangómez-Pérez; Katja Barthelmi; Katherine A Cochrane; Jonas Kiemle; Florian Sigger; Julian Klein; Edward Wong; Edward S Barnard; Kenji Watanabe; Takashi Taniguchi; Michael Lorke; Frank Jahnke; Johnathan J Finley; Adam M Schwartzberg; Diana Y Qiu; Sivan Refaely-Abramson; Alexander W Holleitner; Alexander Weber-Bargioni; Christoph Kastl
Journal: Nat Commun Date: 2021-06-22 Impact factor: 14.919

6. Impact of Ar Flow Rates on Micro-Structural Properties of WS₂ Thin Film by RF Magnetron Sputtering.

Authors: Md Akhtaruzzaman; Md Shahiduzzaman; Nowshad Amin; Ghulam Muhammad; Mohammad Aminul Islam; Khan Sobayel Bin Rafiq; Kamaruzzaman Sopian
Journal: Nanomaterials (Basel) Date: 2021-06-22 Impact factor: 5.076

6 in total

Effects of Defects on Band Structure and Excitons in WS2 Revealed by Nanoscale Photoemission Spectroscopy.

1. Nanoscale mapping of quasiparticle band alignment.

2. Spatially resolved fluorescence of caesium lead halide perovskite supercrystals reveals quasi-atomic behavior of nanocrystals.

3. Bandgap engineering of few-layered MoS2 with low concentrations of S vacancies.

4. Assessing the role of plasma-engineered acceptor-like intra- and inter-grain boundaries of heterogeneous WS2-WO3 nanosheets for photocurrent characteristics.

5. The role of chalcogen vacancies for atomic defect emission in MoS2.

6. Impact of Ar Flow Rates on Micro-Structural Properties of WS2 Thin Film by RF Magnetron Sputtering.

Effects of Defects on Band Structure and Excitons in WS₂ Revealed by Nanoscale Photoemission Spectroscopy.

3. Bandgap engineering of few-layered MoS₂ with low concentrations of S vacancies.

4. Assessing the role of plasma-engineered acceptor-like intra- and inter-grain boundaries of heterogeneous WS₂-WO₃ nanosheets for photocurrent characteristics.

5. The role of chalcogen vacancies for atomic defect emission in MoS₂.

6. Impact of Ar Flow Rates on Micro-Structural Properties of WS₂ Thin Film by RF Magnetron Sputtering.